Distribution, diversity, evolution, and survival of Helitrons in the maize genome

Abstract

Homology and structure-based approaches were used to identify Helitrons in the genome of maize inbred B73. A total of 1,930 intact Helitrons from eight families (62 subfamilies) and >20,000 Helitron fragments were identified, accounting for ≈2.2% of the B73 genome. Transposition of at least one of these families is ongoing, but the most prominent burst of amplification activity was ≈250,000 years ago. Sixty percent of maize Helitrons were found to have captured fragments of nuclear genes (≈840 different fragment acquisitions, with tens of thousands of predicted gene fragments inside Helitrons within the B73 assembly). Most acquired gene fragments are undergoing random drift, but 4% were calculated to be under purifying selection, whereas another 4% exhibit apparent adaptive selection, suggesting beneficial effects for the host or Helitron transposition/retention. Gene fragment capture is frequent in some Helitron subfamilies, with as many as 10 unlinked genes providing DNA inserts within a single element. Gene fragment acquisition appears to positively influence element survival and/or ability of the Helitron to acquire additional gene fragments. Helitrons with gene fragment captures in the antisense orientation have a lesser chance of survival. Helitron distribution in maize exhibits severe biases, including preferential accumulation in relatively gene-rich regions. Insertions, however, are not usually found inside genes. Rather, Helitrons preferentially insert near (but not into) other Helitrons. This biased accumulation is not caused by a preference for cis or nearby transposition, suggesting a specific association between Helitron integration functions and unknown chromatin characteristics that specifically mark Helitrons.